Operating device for punch-press clutches.



L. J. CAMPBELL.- I OPERATINGDEVICE FOR PUNCH PRES S CLUTCHES.

APPLICATION FILED N0 V.Z9,19I2.

Patented Oct. 26, 1915.

m u m R A W W. T A I 4 h wmm flvw W, 2 6 r H W m m Q OMQ WM W 9 Wa w I V/T/VESSES Q/N H L. JLCAMPBELL. OPERATING DEVICE FOR PUNCH PRES CLUTCHES.

APPLICATION F NOV. 29 19 Patented Oct. 26,1915.

6 EEEE Ts-S EEEE 2.

L. J. CAMPBELL. OPERATING DEVICE FOR PUNCH PRESS CLUTCHES.

N F E APPLICATIO IL D NOV. 29, 19I2. v wwm Patented 0ct.26,1915.

' 6 EEEE Tsssssss L. J. CAMPBELL. OPERATING DEVICE FOR PUNCH PRESS CLUTCHES.

APPLICATION FILED NOV. 29, I912.

Patented Oct. 26, 1915.

I 1 15mm.

6 SHEETS-SHEET 4 W 7/1 Z5355 I fiM/a. 7/

W/T/VESSES- LJ. CAMPBELL. OPERA-TING DEVICE FOR PUNCH PRESS CLUTCHES. APPLICATION F lllEl NOV. 29, 1912.

Patented Oct. .26, 191 5.

- 6 SHEYE TSSHEET 5.

L. J. CAMPBELL. OPERATING DEVICEFQR P'UN-CH PRESS CLUTC HES.

APPLICATION FILED NOV- 29,1912. Patented Oct. 26', 1915.

6 SHEETS-SHEET 6 LEON J. CAMPBELL, OF CHICAGO, ILLINOIS.

Specification of Letters latent.

Patented @ct. 2b, 191%..

Application filed November 29, 1912. Serial No. 7%,110.

i To all whom it may concern Be it known that T, LEON J. CAMPBELL, a citizen of the United States, residing at flhicago, in the county of Cook and State of llllinois, have invented new and useful 1m" p rovements in Operating Devices for Punch- Press Qlutches, of which the following is a specification.

My invention relates to means for very quickly connecting the mechanism of a punch press with a driving mechanism and for automatically disconnecting it therefrom, and more particularly, to a device for controlling said connecting means-commonly called a clutch-to regulate its operation of connecting and disconnecting the punch press shaft with and from the driving means. The clutch, in this case, is a key adapted to tilt about its longitudinal axis, whereby it protrudes a rib or tooth beyond the surface of the operating shaft of the press, in one position, thereby locking the shaft to the driving pulley, while, in another position of being tilted, the rib is. turned down or in toward the shaft, the face of the key is turned out, forming a continuation of the surface of the shaft, and the driving pulley rides idle over the shaft and the-therein embedded key or clutch. The clutch is tilted by two cams provided on its surface, and

' brought into action when the clutch is moved lengthwise, causing one or the other cam to strike against the respective end of a collar engaging the clutch between the two cams, which tilt the key in opposite directions. On the inside of the hub of the driving pulley the entire periphery is divided into as manv pockets or key-seats as possible, there being a short fiat portion or rib between each pair of adjacent, trough-like, key-seats This reduces to a minimum the amount by which the pulley must advance before being clutched, after the key has been thrown to the locking position. The sloping sides of each key-seat, coiiperatinx with the. shape of the sides of the locking-rib or tooth-o.ne

of which iscurved very slightly, while the other, which is the driving face of the key,

lit)

is flat, and both vvconverge to form the ridge of the rib-enable the clutch to be tilted out of or -into engagement at any practically utilizable speed of revolution of the shaft.

The accurate fit of the locking-rib in its key-seat, and the short distance between successive key-seats combine to make this clutch available in punchpresses running at very high speeds; prevent the shearing off of gear-teeth, common with geared punch presses when the back-lash between the clutch and the driving mechanism exceeds the back-lash between the gears of the press; enable the friction devices, without which such presses are inoperative, to be wholly "dispensed with; prevent the clutch from being pounded to pieces by being insufficiently inserted inthe locking position, and safeguard the mechanism of the press against in-;

ternal injury to the parts in case of a suddenly varying load or resistance, as in the case of. presses operating drawingdies or bumper-dies.

The especial object of the present inven tion is to provide a device which will cause the clutch to lock the shaft positively imme diately after it has been released by depressing a pedal, will allow the plunger to make one operative or punching stroke, and then positively lock it at the end of the return stroke.

Another object is to arrange this controlling device so that it may be set to allow the press to continue punching without being started for each stroke.

A further object of the invention is to provide a safety device whereby the operating device will positively be locked at the end of the return stroke even though the operator has not released the pedal in time or ,has accidentally depressed the pedal a second time before the crank has returned to its dead center, where the clutch is released.

Finally, the invention aims to provide an alternative or substitute safety appliance which will insure the locking of the press despite defective operation on'the part of the attendant, as did the safety device just mentioned, but will do this in a different way, and at the same time, will provide means for allowing the press to be set to run continuously, permitting doing away with the upper branch of the dog.

These objects are attained by the mechanism hereinafter described and claimed,.and

illustrated in the accompanying drawings,

in which:

Figure 1 shows in front elevation the upper part of a punch press in the act of delivering its punch, the crank being at the end of its downward stroke. The controlling dog and the inner bearing collar ofthe driving pulley are also shown in front elevation, while the driving pulley, its outer and connections,

the press, so that it will be tilted to lock the pulley to the shaft before thedown stroke has become fairly started. The spring is shown in dotted lines as extended after having thrown the clutch to lock. Fig. 3 is a side elevation of the controlling dog showing the dog in full lines in the upper positioncorresponding to Fig. 2, the wedge-shaped cam holding the time carried to the lowest part of clutch outward, preventing its being thrown forward to lock; while .the dotted lines represent the dog pulled down by the trip rod, carrying the wedge-cam clear of the end of the clutch, so that the key has been shot inward and engaged the .drive pulley. .Figs. 4 and 4 are each a partial transverse, vertical section through the hub of the drivepulley, on line 44 of Fig. 5. In Fig. l the locking-rib is'shown engaging the keyseat in the drive-pulley; and Fig. 5 shows the rib turned inward to the release position. Fig. 5 is a top plan view of the controlling dog, a fragment of the side standard or frame of the press, the clutch in its locking position, a portion shaft of the press, and its inner bearing collar; and'a horizontalsection through the center of the hub and the drivepulley, the outer portions being broken awgy. Fig. 6 is a horizontal section on line 6-6 of'Fig. '3, showing pivot-bolt and trip-rod bolt of the controlling dog, and the wedge-cam. Fig. 7 is a vertical section 'of the outer. partof the housingof the clutch, showing the tilting collar, and the outer part of the key in the locking position. Fig. 8 is a like view showing the key released. Figs. 7 and 7 are sections taken respectively on lines 7 'Z' and 7 -7 of Fig. 9 in the direction of the arrows. Fig. 9 is an enlarged detail view showing a front elevation of the controlling dog, of part of the. frame of the press, and the upper part of the trip-rod;

and representing in vertical section a portion of the drive-pulley, the bearing collars or rings, and the housing for the clutch and the clutch-actuating spring. Fig. 10 is a vertical, transverse section of the key and part of the drive-shaft, the key being in the locking position. F ig. 11 is a like View to the one immediately preceding, the key being in the release position. Fig. 12 is a view' similar to Figs. '10 and 11, showing the key as again engaging the drive-pulley, but this its travel,

by the revolution of the shaft. Figs. 13, 14,

and 15 are top plan views of the key or vation of a punch press the application to the of the driving clutch in the positions corresponding respectively to Figs. 10, l1, and 12, the arrows in the latter three figures showing the direction in which views l3, l4 and 15 were taken. Fig. 15 is a perspective view of the tilting key transverse sections through the key taken respectively on lines 15 -15; l5 15 and l5 l5 of "Fig. 15 Fig. 16 is a side elethe frame of which 1s somewhat smaller than that of the one shown partly inFigs. l and 2, illustrating press, of the controlling dog, the trip mechanism and the safety claw. The clutch and shaft are shown in vertical, transverse section, the key is engaged and has just thrown the wedge-cam upward. Fig. 17 is a front elevation partly in section, showing the dogas it has just been thrown back to the upper position by the passing of the key thereunder, the top of the claw engaging the lower, forward end of the boss on the upper branch ofthe controlling dog. Fig. 18 is a side elevation of the parts in the position described under Fig. 17. Fig. 19 is a side elevation of the same parts-shaft and clutch being shown in section, with the key in the locking position-the dog having inadvertently been tripped a second time, so that, unless restored to the engaging position before the crank reaches the end of the return stroke, the key will remain locked. and the press will complete another revolution. The key is seen engaging the Lower branch of the safety claw, pressing the tip of the upper branch against the top of the controlling dog, whereby the latter will be pushed back to its upper position. Fig. 20 is a like view of the same parts as shown in Figs. 18 and 19, representing the safety claw as having returned the dog to its operative position, the key not yet having reached the bottom of its path. Fig. 21-is a side elevation of the upper part of a punch press equipped with my improved" clutch, the clutch-controlling dog, and a safety spur, the clutch and other parts being in the position corresponding to Figs. 1, 3, 5, 7, 10, 13,and 16, but the safety claw being left out, as its place is taken by the safety spur. Fig. 22 is an enlarged detail of the operative parts in the'position they occupy in Fig. 21. Fig. 23 is a side elevation of-the operative parts shown in Fig. 22, showing that the lever has been pushed down by mistake before the punch has reached the bottom-of its stroke, whereby the wedge-cam has been pulled down away from the shaft and the cocking position. The key is seen to be just striking the tip of the safety spur. In F ig.'2+t the keyis fully engaging the safety spur and has commenced swinging the rear part of the spur upward, returning the wedge-cam to its cocking position, but the latter has not yet been reached. Fig. 25 shows the key as having swung the safety spur so as to fully return the wedge-cam to its cock ng positlon with its upper edge hard up against the bottom of the drive-shaft. Fig. 26 shows the same operative parts after the wedge-cam has been drawn down, the clutch allowed to jump inward to the locking position, and the spur is ready to be actuated by the key in its next revolution to restore the wedge to its cocking position.

Referring to Figs. 13, 1 1, 15, 15 15 15 15 7 and 7 the clutch or tilting key 2 1s a short bolt of ..a general cylindrical shape,

having its full diameter only for a short distance at each'end, although throughout the length of the key the back 4. is curved to a radius equal to one half that diameter.

The face 3 on the side of the'key opposite' to said back, is cut down to the curvature of the radius of the driving shaft, extending between-the short shoulder 6 at the outer end of the key and the full bodied nose 5 at its inner end. Looking inwardly along the key, toward the punch press proper, the

outer portion of the face 3 is divided by the ridge 3 into twosurfaces 7 and 7 of equalwidth and of the same radius of curva ture. Surface 17 slopes down to the right hand from ridge 3*, extending outward to theinner face of shoulder 6, and being connected' with the face 3 by a short cam-surface 9. Surface 7 is a continuation of face 3which slopes. up to the outer, full-faced portion of surface 7 in a short cam-surface 8. Thus ridge" 3" is the intersection of the curved surfaces 3 and- '2' on the right hand side of which the cam 8 leads u from surface 3 to surface 7 and on the le t hand side of which the cam 9 leads up from surface 7 to surface 3. From the knuckle of cam 9.

inward to shoulder 11, at the outer end of fullbodied'portion 5 the'key has a flattened bearing face or fin 10. The nose 5 terminates at its inner end in a short face 12 which hastwo inclinations, sloping outwardly from its top downward (the key being considered as'lying on its back with itsface 3 turned up) and again, outwardly from right to left.

At its lefthand edge face 12 runs; off in the short face 13 in which the two inclinations of 'face 12 are retained, only in a more running in a curved 'fillet into the fullbodied portion 5., AIsh'ort, cylindrical lug 315 projects outwardly from the center of 6 marked degree, especially the slope outward from right to left. 'Adjacent the edge of face 13. is ashort portion lt approx'r mately parall el to the axis of the key and shoulder 6.- It will be seenthat face 3 of the key and the flat bearing-face 10 'form the two sides of a longitudinal rib 16 (Figs. 3, 4, 10, '11, 12 and others). "It isthis rib- 16 that receives on its face 10 the driving"- impulse of the pulley 17. I

The hub 18 of the pulley has-secured within its bore by keys or other suitable means a sleeve 19, the interior surface of which is divided into 8 key-seats or pockets 20, of

triangular section. .The punch press, of any known type, has its driving shaft 22 driven by a belt-pulley 18in the present incorporation of the invention illustrated inthe accompanying drawings, but the invention is applicable to any other means of drive, such as by gearing or by direct connection. Adjacent each end of the sleeve 19 a short brass or gun metal bushing 23 is shrunk or pinned inside of the axial bore of the hub 18.

These two bearing-bushings23 ride on steel collars 24, 25 of equal outside diameter, which is such that the-intermediate surfaces 21 between the key-seats 20 will swing well clear of the surface of the-driving shaft. The interior c0l lar24 is shrunk or otherwise secured to the shaft 22, while the outer col- -lar 25 is integral with. a hollow cap secured to the end of the shaft by a machine-screw 26, and contains housing or chamber 27, for

-a spiral spring 28 bearing against shoulder erably out about 180 degrees apart from the crank of the punch press. The outer portion of the key from'a point-approximately onequarter of an inch inside of the interior end of tilting-cam 9, to the shoulder 6, travels with its innerpart, radially c0nsidered,in said groove 30, and its outer part in the chamber 27, which is of cylindrical figure having its diameter slightly greater than the diameter of the full-bodied portions 5 and 6 of the tilting'key and its axis parallel to the 7 axis of the driving shaft. The axis of chamher- 27 is spaced radially outside of the axis of the driving shaft by an amount such that, when thekey 2 -lies in said chamber'27 with its back .4 toward the axis of the driving Shaft itsface 3 will-bear against the inner surface (radially considered) of the bore 31 cut-in the inner end of cap 25 co-axially with Y and of the same diameter as said driving shaft; It will be noted that as the. ca 25 fits overth'e outer endv of the driving shaft 'a portion of the bore 31 will form the outer (radially considered)- wall of a channel the inner wall of which will be formed by groove 30 in the driving shaft and will hence be of the diameter of the full-bodied portions of the-tilting key, so that any cross section of said 'channel' 'w0uld be represented by the cross hatched part of Fig. 15 Hence there i I will be formed at each end of sa-idchannel quickly a shoulder 32, 33 adapted to engage cam surfaces 8 and 9 respectively and to coact with them to tilt the key (see Figs. 7, 8, 7 and 7 Fig. 7 shows the key at its extreme in- 'ward travel, spring, 28 distended, pressing shoulder 6 of the key against shoulder 32 of cap 25. Vhen the key is pushed outward, as will be explained farther on, cam 9 very comes into engagement with shoulder 33. Since cam 9 slopes upward to the left longitudinal pressure against its surface f ment with keyseatof the -drive wheel as Shown in' Figs. 8

' is pulled down full-faced portion 3 and back lng key-seat 20 of hub, and the'key slides outward with its 4 completely fillingall of cross section of channel under bore excepting the small segment cut off by theflatteningpf face 10 of rib 16. At the end of its outward travel the key appears and 9, with cam 8 just outside of shoulder 32,- and spring 28 fully compressed. As soon as the faces 12 and-13 0f the key are released, as will be explained, the spring 28 drives theclutch 2 inward.

Cam surface 8 instantly comes into engagement with shoulder 32,.whereby the key is tilted outward, radiall considered, in the contra-clockwise direction, causing it to pro trude so as to be engaged by the next arrivthe continually turning drive-pulley 17.

The locking and disengaging of the key is controlled by a'trip rod in,connection with wedge-cam 34, machined on the end of the lower branch of a semi-circular dog 35, having a rearwardly extending, integral ear 36, pivoted on a full-bodied screw 37, screwed into the side of the'frame of the punch press,

to the rear of and slightly below thecenter of the driving shaft. A trip rod 38 articulated to the lower part of dog 35 by screw 39, by depressing a pedal lever 40 (Fig; 16), which, when released, is pulled up to the operating position by a spring 41, operating through the customary, known connections. edge-cam 34 is inclined from" 1ts forward edgeoutward to its rear end,

where it terminates in a shoulder 34, and in addition, the face has a second inclination from its bottom outward to its top, being-the obverse counterpart of the second inclina tion spoken of in connection with face 13 of the key. This second inclination of face 34 is shown in Fig. 6 by the dotted line 34 corresponding to the bottom edge of the wedgecam. Theend of the upper branch of dog 35 is formed into an internally threaded boss 42, which carries adjustablya round -'pointed screw-bolt 43.

Figs. 1, '3, 7, 10 and 13 show the key in the locking position with rib 16 engaged by shoulder33, so as to one of the key-seats 20. Prior to arriving at the position 2 in said figures, the dog 35 was in the full down position, with the wedge 34 well clear of the bottom of the driving shaft, as indicated in dotted lines in Fig. 3. When the revolution of the shaft brought the full-bodied portion 5 of the key into engagement with the rounded point of screw 43, the latter was pushed upward and backward, swinging the dog on its pivot 37, until the upper edge of the wedge-cam 34 was brought to bear against the bottom of the driving shaft, as shown in said figures. The crank of the punch press is at this time at the end of its downward stroke, and the wedge-cam is lying in the path of the inner end of the key 2, projecting well beyond the inner edge of collar 24. As the crank ap proaches its upper dead center, the wedge cam is engaged by face 12, which commences to push the key outward; then face 13 .sw'ings into engagement, with face 34, continuing the outward translation of the key 2. As soon as face 13 is in full engagement with the wedge-cam the two surfaces are locked together by the second inclination above described as inherent to both of them. The oppositely inclined surfaces being thus locked together, 'cannot be separated by the continuing rotation of the shaft, which is .Ofespecial importance to insure perfectly reliable functioning of the automatic keydisengaging device, in high-speed punch presses. As the shaft continues to rutate, the wedge-cam continues forcing the key outward, and as the outer end of cam 9 is under shoulder 33 while the key is in engagement with the pulley 17, the key immediately commences to tilt, which action keeps the inclined face 13 from being turned awayfrom the wedge-cam by the revolution of the shaft. All this time the spring 28 is being compressed toward the outer end of its chamber, the action somewhat resembling the cooking of a firing-pin in a modern small-arm.

After the key has become fully disengaged from the hub it continues to be pushed outward until it has passed for about a} of an inch inside the inner end of cam 9, beyond insure its being held down in its groove 30, preventing any part from working up to where it might be .caught by the bearing faces of the revolving hub. After the pulley has become disengaged, the shaft continues to revolve, being pulledonward by the inertia of the moving parts of the press, until the flat portion 14 of the key is brought up against the heel or shoulder 34 limiting the wedge-cam, by which the shaft is brought to a dead stop (Fig. 9). When the pedal is now depressed, pulling the Wedge-cam 34 down and away from in front of the key, the latter is impelled inwardly by its spring 28, is tilted in the act by cam 8 coacting with Shoulder 32 and protrudes its locking-rib'16, which is engaged almost instantly by the next-comlease the pedal, which'is at once drawn up to the normal position by spring 41.

For some kinds of work, such as stamping ribbons of metal, the press is preferably run continuously. To set the dog for this man- 'er of operating, screw 43 at the upper end of the dog is screwed out until its point is cleared by the key 2 when the wedge-cam is down so far as to be inoperative. In that case the press can be stopped at any time by screwing down bolt 43, or by pushing the trip rod up by hand. If, after the pedal has been released, the operator depresses it again before the punch has reached the end of its down-stroke, or if he fails to remove his foot from the pedal, the wedge-cam will remain out of operation, so that the shaft Wlll carry by the stopping point and cause a second punching st eke to ensue, which may cause damage to the Work or to the attendant. To make this impossible and to insure the automatic release of the key at the 'end of each punching stroke, an approximately'ciroular safety claw 44 is .piv-

- oted to the side of the frame of the punch of the driving shaft 22, with its pivot on press by a screw-bolt 45, passing through a protuberance 4'6 extending forward from and integral'with the middle body of the claw. The safety claw is mounted forward the same level with the axis of the shaft, and sulficiently close to it to enable'the upper arm or branch to engage the forward surface of boss 42, and the end of the lower branch to play over the outside of the forward. end of the wedge-cam 34 (see Figs. 16 to 20 incl.) A short thimble 47 (Fig.1?)

inserted between the safety claw'and the,

side of the punch press frame, inclosesaspiral spring which encircles the shank of the screw-bolt 45. The inner end48'of the spring is inserted in a socket. in; the 'side of the frame, while the outer end engages the lower branch of theclaw), so that-"the torsional effect of the spring is to urge the up per branch of. the clawagainst the forward face of boss 42 at the upper end of the controlling dog 35, keeping itin constantengagemenl therewith. Figs. 16, 17,v and-18 show the parts in the initial position corresponding to Fig. 1, with thewedge-cam 34 up against the sh ft, ready to push the key strong to force the The tip of the upper branch of the claw 44 is bearing against the forward partof boss 42. Immediately after the parts have been in the position of Fig. 18, the dog and wedge-cam have been pulled down by unintentional depressing of the pedal, bringing the operative parts into the position shown in Fig. 19. As soon as the key 2 passes be- If. the operator should keep his foot on the pedal after having tripped'the key, the kick of the claw, will be sufliciently rapid and pedal upward against the foot-pressure.

modified form of the controlling and safety devices is shown in Figs. '21 to 26 inclusive. Here only the lower branch of the controlling dog 35 is retainedfwith its pivot 37, wedge-cam 34, and the articulated con nection 39 with the upper end of trip rod 38.

A spur 49jis pivoted by screw-bolt 50 to the side of the punch press frame, almost directly under the axis of the driving shaft,

and sufficiently close thereto to be at all times in engagement with either the shaft or its locking-key 2. A boss 42 on a rearwardly extending, heel 51 of the spur, is threaded to adju'stably carry the roundpointed screw-bolt 43, which takes the place of the adjusting screw 43 in. the upper branch of the controlling dog of Figs. 16 to 20 inclusive. Figs. 21 and 22 showthe parts in the position corresponding to Figs. 1 and 16. The key locked to the shaft is turned up, and the weight of the dog. 35 'and trip rod 38 with its connections, acting on. the heel of the spur, throws its toe 52 up against the'bottom of the shaft. Fig. 23 shows the \parts after the dog 35 has been pulled down by the trip rod, and after the'key 2 has just engaged the bearing surface of'the toe 52 of the spur, and is commencing to pressthe toe I downward, thereby lifting the heel 51, and

with-it the dog and its Wedge-cam. In Fig.

24 this action is shown at a later stage of progress. In'Fig. 25 the key has passed from the-bearing surface of the spur, having completed the 'returning of the wedgecam. to its. operative position; the key has been released and is commencing'to be cooked. In Fig. 26 the key has been tripped,

is again in the initial position of Figs. 21 and 22.

" back out of engagement with the hub 17. When-the adjusting screw 43 in' 'the heel has locked the shaft to the hub, and the spur of the spur is screwed back so far that the key can ride by without encountering any resistance from the screw, then the spur will uprising a driving shaft, a key having a limited movement lengthwise in guiding v vkey normally riding idle on said shaft and means on said shaft and a tilting movement about its axis, resilient means operating against the outer end of said key for urging said key in said guiding means toward said punch press; Wedging means articulated to the frame of said punch press and controlled bythe operator, acting against the inner end of said key to move it outward along said guiding means, a'locking rib on said a driving pulley having an axial bore around said key, a plurality of key-seats in the walls of said axial bore, means onsaid shaft for revolubly supporting said driving pulley With said walls of said bore clear of said shaft, means on said key coact- "against said second stop,

ing with a stop on said shaft, for so tilting said key when moved lengthwise against "said stop as to protrude said locking r1b path of said key-seats and cause it key coacting with a second stop on said shaft, for tilting said key when moved in the direction opposite to said first movement, said second tilting being in the angular direction opposite .to

said first tilting and bringing said key out of engagement with said key-seat.

'2. A punch press clutch mechanism, comprising a driving shaft, a key having a of revolublyv supporting said driving pulley limited movement lengthwise in guiding means on said shaft and a tilting movement about its axis, resilient means operating against the outer said key in said guiding means toward said punch press; wedging means-articulated to the frame of said punch press and controlled by the operator,.acting against the inner end of said key to move it outward along said guiding means, a locking rib on said key, a driving pulley having an axial bore normall riding idle on said shaft and around said hey, a plurality of key-seats in the walls said axial bore, means on said shaft for With said Walls'of said here clear of said shaft, a' plurality of intermediate surfaces separating each pair of adjacent key-seats, said key-seats and said intermediate surfaces completely filling the periphery of said axial bore, and there being as many of said keyseats as the size of said lock rib and the diameter of said bore will permit, means on and a tilting movement about its end of said key for urging said key coacting with a stop on said shaft, for so tilting said key when moved lengthwise against saidstop as to protrude said locking rib into the path of said key-seats and cause it to be engaged by one of them,

. means on said key coacting with a second stop on said shaft, for tilting said key when moved in the direction opposite to said first movement, against said second stop, said second tilting being in the angular direction opposite to said hrst tilting and bringing said key out of engagement with said keyseat.

3. A,- punch press clutch mechanism comprising a driving shaft, a key having a limited movement parallel to the axis of said shaft in guidingmeans on said shaft axis, a pulley on said shaft locking rib on said key, a driving having an axial bore, means for revolubly supporting said driving pulley with the walls of said axial bore clear of said shaft, means on said key coacting with one of said supporting means, for so tilting said. key when moved lengthwise against said supporting means as to protrude said locking rib into the path of said key-seats andcause it to be engaged by one of them, means on said key coacting with said supporting means for tilting said key when moved in the direction opposite to said first movement, said second tilting being in the angular direction opposite to said first tilting and bringing said key out of engagement with said key-seat, elastic means for urging said key into engagement with one of said key-seats, an inclined face on the inner end of said key, means pivoted to the frame of said punch press adapted to coact with said inclined face to push said key outward against said elastic means, mairoperated means for moving said key-pushing means out of the path of said key, automatic means directly connected with said key-pushing means and actuated by the revolution of said key about the axis of said shaft, for return ing said key-pushing .means into their operative position after they have been pulled out-of said position.

' 4:. A punch press clutch mechanisincomprising a driving shaft, a key having av limited movement parallel to the axis of said shaft in guiding means on said shaft and a tilting movement about its axis, a. locking rib on said key, a driving pulley having an axial bore, means on said shaft for revolubly supporting said driving pulley with the walls of said axial bore clear of said shaft, means on said key coacting with one of said supporting means, for so tilting said key when moved lengthwise against said supporting means as to protrude said locking rib into the path of said key-seats and cause it to be engaged by one of them, means on said key coacting with said supporting lao w means for tilting said key when moved in the direction opposite to'saidfirst movement,

said second tilting being in the angular direction opposite to said first tilting and bringing said key out of engagement with said key-seat, a face on the inner end of said ,key, having a principal inclination from the top down, and a second slope from right to left, means pivoted to the side of the frame of said punch press, adapted, when engaged by said inclined face, to push said key outward as it continues to be swung around by the revolving shaft, means controllable by the operator of said punch press, for moving said key-pushing means out of contact with and clear of the path of longitudinal movement of said key, means directly connectedand integral with said key-pushing means, and actuated by the revolution of said key about the axis of said shaft to automatically swing said key-pushing means into its operative position opposite the inner end of said key, after it has been pulled out of said position, means for adjusting said automatic means so as to be inoperative, thereby allowing'said pi nch press t9 work continuously, an inclination ,on/ aid keypushing' means from the {frontf t, the. rear, and asecond inclination on "aid key-pushing means from the bottom 0 tward toward the top, said secondinclination' being adapt ed to coact with said second sldpep on said face on the inner end of said key to tlocksaidtwo inclined faces together after they have entered into mutual engagement,- elastic means bearing against the outer end of-said key,'adapted to be compressed by said outward movement of said key, and to urge said .key inward, a safety device pivoted to said prising a driving shaft, a key having a limited movement parallel to the axis of said shaft in guiding means-on said shaft anda tilting movement about its axis, a locking rib on said key, a driving pulley having an axial bore, means on said shaft for revolubly supportingsaid driving pulley with the walls of said axial bore clear of said shaft,

means on said key coacting with one of said supporting means, for so tilting said key when moved lengthwise against said supporting means as to protrude said locking rib into the path of said key-seats and cause it to be engaged by one of them, means on said key coacting with said supporting means for tilting said key when moved in the direction opposite to said first movement,

said second tiltihg being in the angular direction opposite to said. first tilting and top down, and a second slope from right to left, means pivoted to the side of the frame of said punch press, adapted, when engaged by said inclined face, to push said key outward as it continues to be swung around by the revolving shaft; means controllable by the operator of said punch press, for'mo-ving said key-pushing. means out of contact with and clear of the path of longitudinal movement of said key, means directly connected and integral with said key-pushing means, and actuated by the revolution of said key about the axis of said shaft to automatically swing said key-pushing means into its operative position opposite the inner end of said key, after it has been pulled out of said position, means for adjusting saidautomatic means so as tobeinoperative, thereby allowing said punch press towork continuously; an inclination on said key-pushing means fT m the front to the rear, and a second incllnation on said key-pushing means from the a bottom outiyard toward the top,,,said second inclination being adapted tocoact with saidsecond slope-"on said face on theinner end ftsaid keyto lock said two inclined facestogetlier'after they have entered into mutu l engagement, elastic means bearing against theouter end of said key, adapted to be compressed by said outward movement of said key, andto urge said key inward, a safety device pivoted to said' frame of said punch press, and engaging a member integral with said key-pushing means, actuated by the swinging ofsaid keyv by its rotating shaft, to automatically insure the correct operation of said automatic means for swinging said key-pushing means in case the latter have been pulled out of the operative position by inadvertence, and

means for positively holding said key down in its said groove when in the locking and when in the disengaged position, said means operating to continue the lengthwise movement of said key after it has been fully tilted to one or the other, of said two positions, thereby inserting said key between said shaft and one or the other of said supporting means'on said shaft.

' LEON J. CAMPBELL.

Witnesses:

,JAMES T. HEALY, M. H. CAMPBELL. 

